Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

I have a method that returns a type that it is given:

T foo(Class<T> valueType) {...};

String s = foo(Java.lang.String.class);

I'm trying to send a generic type as my class, but getting compiler errors. For example, let's say I want to return an ArrayList of Strings:

ArrayList<String> list = foot(ArrayList<String>.class)

the parameter "String" is giving errors. Is there anyway I can specify the generic type to return?

share|improve this question

6 Answers 6

The runtime class field value does not depend on the generic type you apply, and this syntax is illegal. More on this here.

share|improve this answer

Would this work for you(edited)?

ArrayList list = foot(ArrayList.class)
share|improve this answer
probably ArrayList list = foot(ArrayList.class)? – hoaz Dec 5 '12 at 19:48
true, i will edit my post – Hossein Dec 5 '12 at 19:49
This compiles, but I want to return a parameterized object. – Jason Dec 5 '12 at 19:55
Then using a wrapper might be a good idea. pass the parameterized object to a wrapper and then pass the wrapped class to your actual method. would that work? – Hossein Dec 5 '12 at 19:57

Just cast the input or output of the method:

ArrayList<String> list = foot((Class<ArrayList<String>>)(Class<?>)ArrayList.class);


ArrayList<String> list = (ArrayList<String>)foot(ArrayList.class);

Basically, the Class class does not work well with generics, because it represents a runtime thing, whereas generics works at compile time. At runtime, there is just one class object for ArrayList in the program. Even if you call it Class<ArrayList<String>> or Class<ArrayList<Integer>> or Class<ArrayList>, it's still the same single object. So what type should it be? There's no simple answer that works for everything.

The Java language decided that the class literal ArrayList.class should just have the type Class<ArrayList>. But that causes problems when you want an expression of type Class<ArrayList<String>>, so you have to bend the types.

share|improve this answer

Type Erasure rears its ugly head. Essentially, Java does compile-time checking on the generic <…> clauses, then erases them from the run-time objects, losing the information forever. Nasty, eh? Since .class metaobjects are referenced at run-time, they suffer from the erasure as well.

ArrayList<String>.class is Erased at compile-time, to be ArrayList.class.

If you want type-safety with the generics, you'll have to pass in two parameters, e.g.

ArrayList<String> foo = foot(ArrayList.class, String.class)

share|improve this answer

Assuming you are here only concerned about static types, this trick might be useful:

public static <T>
Class<T> appropriateClass(T... args) {
    return (Class<T>) args.getClass().getComponentType();

Class<ArrayList<String>> c = appropriateClass();
ArrayList<String> list = foo(c);

Actually I am not very proud of the trick. But you might want to give it a try.

If you test it:

System.out.println(c); // prints "class java.util.ArrayList"

So it is equivalent to an ugly cast like (Class<ArrayList<String>>) (Class<?>) ArrayList.class.

If you actually need to have different tokens for ArrayList<String> and ArrayList at runtime, you should use the TypeToken technique as mentioned by Sean Patrick Floyd.

share|improve this answer
I am not even sure I fully understand why it works :) – Saintali Dec 7 '12 at 22:09

It's not possible with parameters of type Class. Instead, your method must accept Parameters of type Type the way GSON does it with the TypeToken class.

share|improve this answer
That will not help at compile time (which is what the OP's issue is). At runtime, the type argument is not needed. – newacct Dec 5 '12 at 21:07
@newacct either you or I have misunderstood the question. But I'm guessing it depends on what the foot() method does. If it just instantiates an Object, you are correct. If it needs to create actual data, I am. Since it's not clear from the question which it is, my answer is as valid as the others. – Sean Patrick Floyd Dec 6 '12 at 9:16
I think people are here mistaking Type for java.lang.reflect.Type. Probably giving a bit of background on TypeToken in your answer may help. – Saintali Dec 7 '12 at 22:17
@Saintali but that's the whole point: TypeToken is a way of retaining type info (as in java.lang.reflect.Type) at runtime. If a method has a Parameter of type java.lang.reflect.Type you can pass it String.class , but you can also pass it new TypeToken<List<String>>() {}.getType(). java.lang.reflect.Type is the only way of efficiently handling generic and non-generic types in Java – Sean Patrick Floyd Dec 9 '12 at 17:44
Or you could use TypeToken itself, and get the best of two worlds: both static type safety and distinct tokens at runtime. – Saintali Dec 9 '12 at 18:39

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.